Machine for simulating handwriting



Aug- 4, 1936 G. TAUscHEK MACHINE FOR SIMULATING HANDWRITING Filed DeG. '7, 1955 5 Sheets-Sheet l v I INVENTOR BY y ATTORNEY Aug. 4, 1936. G. TAuscHr-:K 2,049,575

MACHINE FOR SIMULATING HANDWRITING Filed Dec. fr, 1935 5 sheets-sheet 2 H H /77/#2 ,61 HHHHIHHG l s l I l' we H H |H x lH :H H H H HH H i lNyNTOR ATTORNEY Allg. 4, 1936. Q TAUSCHEK 2,049,675

MACHINE FOR SIMULATING HANDWRITING l l Filed Dec. 7, 1.955 5 sheets-sheet 3 lNVENTOR FIGA.

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ATTORNEY Aug. 4, 1936. G. TAuscl-IEK MACHINE FOR SIMULATING HANDWRITING Filed Dec. '7, 1935 5 Sheets-Sheet 4 umh INV ENTOR ATTO RN EY Aug. 4, 1936. G. TAUscl-IEK MACHINE FOR SIMULATING HANDWRITING Filed Dec. 7, 1935 5 Sheets-Sheet 5 FIG. 7.

llllllllllll] lllllllllllll'l UDIJIJDDU www., www5 U m8676545z 1 INVENTOR MM ATTORNEY Patented Aug. A4,Y 1936 l MACHINE Foa s WRI momma mum- ING Gustav Tauschek, New York, N. Y., signor to International Business Machines Corporation. New York, N. Y., a corporation of New-York Application December 1, 1935, semi No. 53,291 l 1s claims.k (ci. :is-1s) This invention relates to machines which are capable of simulating hand-writing andA more particularly' relates to that .type of machinewhich is controlled by a perforated card.

The main object of the present invention is to devise a construction whereby the writing mayl be effected under control of a perforated card.

With the present invention a card may be perforated in a plurality of columns to represent the data which is Vto be reproduced in the form of intelligible characters. The machine is capable oiA interpreting the meaning of the holes to control the movement of a stylus or pencil. Each column is adapted to select a particular operating cam,-

and each cam is provided with pre-designed cam portions which guide the movementof the stylus to simulate writing by hand.

The machine may be used for a number of purposes. It is evident that a card may be perforated by well-known perforating machines and utilized to control the visual exhibition of characters at another place; thus conveying information and presenting it in a more intelligible form.

The machine may also be utilized as an advertising device since such a machine would attract a great deal of attention and wonderment would be exhibited by many who were not aware of its construction. Its attractiveness lies a great deal in the fact that the machine effects movements of a pencil which simulates the movement given by the human hand in writing characters.

Other and relatively important objects will be realized as the description is understood by recourse to the specification and drawings in which latter:

Fig. k1 is an end view of the machine showing particularly the main driving mechanism and the o feeding devices for the perforated card.

Fig. 2 is a sectional view taken through the card analyzing devices showing the analyzing means and their control over the cam plate stop pins.

Fig.` 3 is a view in side elevation of the mechanism provided to effect under control of the operating cams diiierent movements of thepencil or the paper tape on which the characters are reproduced.

Fig. 4 ls a view in end elevation ofthe right end of the mechanism shown in Fig. 3.

Fig. 5 is a view in side elevation illustrating vthe friction drive for the cam plate carrying unit and also showing in fragmentary portions the construction of the cam plate carrying unit. This view also shows the correlation of the stop pins and the cam plates.

Fig. 8 is a sectional view taken on the line 6 8 of Fig. 5.

Fig. 7 is a representation of a perforated card adapted to control the machine and shown partially perforated to illustrate the code or hole 5 combinations used to represent the forty-two different characters.

Fig. 8 is a graph showing how the formation of the operating cams is derived to effect the desied movements of the stylus for letters a and 1o Fig. 9 is a detail view of the mechanism provided to secure a space between letters and to ci' effect a desired spacing of the paper strip.

The power for operating the various mecha- 15 nisms of the machine is derived from a motor I0 (Fig. 1) adapted to continually rotate a power shaft II to which is attached a pinion I2. 'Ihe pinion I2 is in continuous mesh with a gear I3 loosely mounted upon a stud shaft I4 to which 20 is attached a pinion I5 driving a gear I6 and the latter is loosely vmounted upon a stud shaft I1. To the gear I3 there is attached a gear I8 driving a gear I9 pivotally mounted upon a stud shaft' 20. The stud shafts I4, `Il and 20 are car- 25 ried by a frame 2I loosely pivoted on the motor shaft II and urged by a spring 22 so that its wedge shaped portion 23 is in engagement with the larger periphery of acam 24. In the normal position of the parts the cam-4 24 is adapted tov3 hold the frame member 2| in such a position that the gear I8 is in mesh with a gear 25 secured to a shaft 23. Since the motor is assumed to be rotating constantly, the gear 25 driven by the train oi gears just described will continually 35 rotate the shaft 26 and a cam 21 secured thereto. The cam 21 is adapted to reciprocate a slidably mounted plate 28 since said piate carries a roller 29 in engagement with the profile cam 2l. For each rotation of the cam 21, the plate 28 will 4 be rocked and byvmeans of a feeding pawl 30 carried thereby and which is in engagement with the teeth of a ratchet wheel 3| attached to the cam 24, the ratchet wheel will be moved stepby-step in a clockwise direction.

When the cam 24l is moved clockwise a slight amount the wedge shaped projection 23 will now engagea recess 32 of the cam 24 permitting spring 22 to draw the frame member 2| clockwise thus permitting gear I9 to engage with a gear 33. The gear 33 is in mesh with a pinion 34 to which is attached a disk 35 having a crank pin 36 iitting in a slot of one arm of a -bell crank 31. The vertical arm of the bell crank 31 has a pin and slot connection 38 to a slidably 55 tom card of the stack will be fed out of the hopper 42.

The pinion 24 is sumciently wide to mesh with a gear 4I which is adapted to drive a gear 44 which is in mesh with a gear 45. To the gears 44 and 45, there is secured a pair of feeding rollers of the usual form and these rollers are adapted to feed the card fed from the hopper 42l to the left, as viewed in Fig. 1.

A supplemental set of feeding rollers attached to gears 45 and 41 is adapted to further feed the card to the left as viewed in Fig. 1 since the gear i6 is driven by the gear 45 through anxidler gear 48.

By the feeding mechanism operated by disk 35, the card is given a movement of translation to the left and is further fed by the feeding rollers until the first card column of the card is in operative Arelationship with devices to be presently described. When the card column of the card is in the desired position, the wedge shaped portion 23 of the frame member 2l will now be engaged by the higher portion of the cam 24 thereby shifting the gear I9 to the left to be disengaged from the gear 33 and again en- 35 gaged with the gear 25 to eil'ect operations now to be described. l

The primary function of the machine when the card 4l is in its first columnar position isto analyze the card to determine which positions in the column are perforated. The form of card adapted to control the present machine shown in Fig. 7 is well known in the tabulatlng machine art and is fully shown and described in the patent to D. Lake, No. 1,772,492 dated August l2, 1930. Each column is adapted to havetwelve vindex point positions which are adapted to be perforated according to the code shown in Fig. 7 to represent forty-one different characters. As shown in Fig. 7, letters a to g are designated by single perforations located in positions 1 to 7, respectively. Letters of the next group, or h to n, are designated by perforations in positions 1 to 7 and in addition -thereto a perforation in the eighth index point position. The perforations at the eighth, ninth,

tenth, eleventh and twelfth positions used in connection with the'perforations at the 1 to 7 position are herein designatedV as pilot holes.

From Fig. 7, it is evident therefore that all the letters of the alphabet, au the digits and nve special marks may be represented by the code of perforations shown. The present machine is adapted to have mechanically operated devices for reproducing writing under the control of the perforations in each column of the card. When the column of the card to be analyzed v'is in theproper position the twelve index point positions are in correlation with a series of anallyzing vpins 49 designating a group of seven pins correlated with index point positions 1 to 7, and a series of analyzing pins 50 correlated with the pilot holes at the eighth to twelfth index point positions. u During the initial operation of the shaft 26 a cam 5I secured to the shaft 25 is adapted during `its initial clockwise movementto raise a frame comprising a lower plate 52 (Fig. 2) and an upper plate 53 Joined by rods 54 and 55. The frame is guided in its reciprocating movement 5 by means of rods 58 secured to the frame of the machine. Preferably a pair of cams 5l is provided sonas to raise both sides of the frame Just describedlv The analyzing pins 49 and 50 are slidably mounted in the frame just described 10 and when the frame is elevated, a pin 48 is adapted to pass through a hole in the card at the corresponding index point position and elevate a related pin operating member 51. The group of analyzing pins 50 is also adapted to coact with 15 the card and a pin 50 will pass through a hole at a corresponding index point position and thereby elevate a related operating'pin 58. A coil spring `58 surrounds each of the analyzing pins 49 and 50 so that in the event certain posi- 20 tions are not perforated, the pins 49 and 50 will be held back during the elevation of the frame and springs 59 will be merely tensioned.

Each of the pin operating members 51 is adapted to elevate a related stop pin 60. A se- 25 ries of such pins flt loosely in a series of holes formed in a plate 5I. If in the event that the ilrst index point position should be perforated, it will be obvious that the pin 49,at the extreme left will pass through the card and ele- 30 vate its related pin operating plate 51 to thereby cause the related pin 50 to be raised to a stop position. However, the pin 50 just described is adapted to have ilve other stop positions in accordance with the lateral movement given to the 35 pin 50 to the left as viewed in Fig. 2. 'I *hese various positions are adapted to be effected under control of the pins 58 one of which is elevated depending, upon whichpilot hole is utilized.

Each pin 55 carries a pin 52 adapted to enter a 40 corresponding cam slot 53 of the plate 6|. The. cam slots 53 are of different inclinations so that each pin 58 when elevated can move the plate 6I to the left a desired amount.

summarizing, therefore, it will be evident that 45 each stop pin may have six different stop positions and since there is a series of seven stop pins 50, by the various combinations of perforations heretofore described, forty-two stop positions may be derived for a purpose to be ex- 50 plained hereinafter.

After the cycle of machine operation 'corresponding to operations performed under one card column, the cams 5| permit the frame carrying the analyzing pins 49 and 50 to be lowered 55 to thus permit the card to be stepped a space of one column in order thatthe next card column may be analyzed.

Referring to Fig. 1 and recalling that the pinion l5 is continuauy rotating, it will be obvious 6 that a pulley 54 secured to the pinion will also rotate continually. The pulley 54 is adapted to drive a pulley 65 by means of a belt connection 56 and the pulley is rigidly secured to a shaft 61. Shaft 51 is also disclosed in Fig. 5 wherein it 65 will be seen that secured to shaft 61 is one element 88 'of a friction drive. The other element 69 of the friction drive is secured to a sleeve 10 overlying the shaft 81. Secured to the sleeve 10 is a series of supporting plates 1|, 12, 13, 14. Each 70 plate 1I to 14 is provided with a series of radially cut slots 15 (Fig. 6) in which fit a series of cam plates 15, forty-two in number. Each plate 16 extends to the left as shown in Fig. 5 a different distance so that stop lugs integral with eachl of '75 plates 16 are so positioned to present forty-two stop lugs which are in forty-two different planes.

The group of plates 16 corresponding to characters a to g have `lugs 11 of other plates 16 so positioned as to coact with the pin 68 at the extreme left (Fig. 2) when it is positioned in any of its six different positions. Therefore, the pin 68 when elevated will coact with thelug 11 of one las be seen that when one of the pins 68 is elevated,-

it will coact with the corresponding stop lug 11 thereby stopping the movement of the sleeve 18 and the parts carried thereby since the friction drive 68, 69 will permit this movement.

Each cam plate 16 is provided with three distinct cam portions 18A, 18B and 18C on its outer edge. Each of these distinct cam, portions is adapted to cooperate with fingers 19A, 19B and 19C whereby in the lateral movement of a cam plate each of the fingers will be elevated or depressed dependent upon the configuration of the cam. As'will be subsequently explained, all of the cam plates 16 will be given a movement to the left as viewed in Fig. but of course only the selected cam plate 16 will control the position of the fingers 19A, 19B and 19C. i

The purpose of the fingers 19A, 19B and 19C shown in Figs. 3 and 5 will now be described.. Referring to Fig. 5, it willbe noted that while the cam plate carrying unit is rotating these fingers 19A, 19B, 19C will be in engagement with the outer circular periphery of the supporting plates 12, 13 and 14 and since the outer edge of each of the cam plates is cut at each of these positions to correspond with theperiphery of the plates 12 to 14 inclusive, it will be clear that fingers 19A, 19B and 19C coact with a substantially circular track during the rotation of the cam plate carrying unit.

Referring now to Figs. 3 and 4, it will be observed that a paper tape 88 passes between two sets of rollers 8| and 82 and that the tape passes over a flat bed platen 83. In order to cause aY movement of the paper strip over the platen 83 either to the right or left, the supporting shaft of the lower roller of each ofthe sets of rollers 8|, 82 has secured thereto a pulley 84.

The two pulleys are connected by a belt connection 85. In orderto move the paper tape to the right and left of a stylus or pencil 86 `the following mechanism is preferably employed and is under control of the fingers 19B. The finger 19B comprises a downward projection of one arm 86a of a bell crank, the arm 81 constituting the vvertical arm of said bell crank. The bell crank 86a, 81 is pivoted by a screw 88. The vertical arm 81 of the bell crank carries a spring pressed arm 89 having a pin 90 in engagement with a notch 9| of an annular ring 92 secured to the shaft of the lower roller of the set 82. It is therefore evident that with the pencil 86 stationary a downward movement of the finger 19B will cause the paper tape 88 to be moved to the left with respect to the pencil 86. When the nger 19B is elevated, the

paper .tape 88 will be moved tosthe right with respect to the pencil 86.

In order to secure the vertical movement of the pencil 86 the following mechanism is preferably employed. The finger 19A is an integral part of a plate 93 slidably mounted by means of screws 94 and 95 and said plate is normally urged downwardly by means of a spring 96 so that finger 19A engages the cam portion 16A of the selected cam plate. The pencil 86 is carried by a plate l91 pivoted at 98 to the upper .portion of the plate 93. A spring 99 is adapted to urge the pencil 86 tov integral with one arm IDI of a bell crank.

The arm |82 is the other arm of such bell crank vand the finger 19C is an integral part of the arm |82. The bell crank comprising arms |8| and' 82 is pivoted by the screw |88. In the event that the finger 18C should be in the position shown in Fig. 3 and the finger 19A is elevated or lowered, it will be obvious that the pencil 86 will move upwardly and downwardly over the paper tape :i121 While the pencil touches the tape to produce a e. The bell crank comprising arms 86a and 81 has connected thereto a spring |84 normally urging the flnger19B to -contact with the outer cam. portion 18B of the selected cam plate 16. Corre spondingly, a spring |24 functions to cause the finger 19C to engage the cam portion 16C of the selected cam plate 16. The movement of the finger 19C is under control ofthe cam section 16C of the selected cam plate 16 and when the finger 19C is lowered, the wedge shaped projection '|08 of the arm |8| will be withdrawn from arm |8| to permit the spring 99 to force' the pencil 86 to engage with the tape 88.

I t is 4obvious that an up and down movement of the plate 93 will cause the pencil 86 to travel upwardly and downwardly over the tape 88 and the movement of the paper tape 88 to the right or left of the pencil 86 will cause a horizontal line to be made on said tape. A simultaneous movement of the tape and the pencil 86 will cause the latter to outline on the paper tape a form which is dependent upon the cam portions 16A, 16B and 16C. Fig. 3 shows the cain portions for writing the letter a. g g

The composite movements of the pencil, 86 under control of the various cam portions of the cam 16 will cause the pencil to form the outline shown in Fig. 3 on paper tape 88.

Obviously, each cam plate 16 is formed with a different configuration in order to give different movements of the paper tape and pencil independently of each other or simultaneously at various rates so as to be capable of writing the, remaining characters which is possible by the present embodiment. It is also pointed out that the finger 19C is elevated when the pencil 86 is to be moved without marking the tape which is necessary when the pencil 86 is to be moved from a terminating position to another starting position.

It was previously stated that the movements of the fingers 19A, 19B and 19C are caused by a lateral movement of the-selected cam plate 16. The mechanism whereby the cam plate carrying unit may be laterally displaced will now be described.

4The unit is mounted between a yoke comprising arms |85 and |86 (Figs. 5 and 6) joined together by a base plate |81 and the latter is suitably guided so that the yoke may be moved laterally on a base plate |88. i

Referring to Fig. 1, the base plate |81 is provided with a laterally extending projection |89 Ycarrying a roller |I8 in engagement with a cam slot of a cam plate ||2. In order to rotate the cam plate ||2 so that the cam slot therein may move the yoke frame |85, |86, |81 laterally, the following mechanism is preferably employed. The shaft 26 is adapted to drive a shaft ||3 by means of a pair of bevelled gears |4. The shaft I3 carries at its upper end a bevelled gear I5 in engagement with a bevelled gear 6 which is also in mesh with a beveiled gear ||1. The latter is secured to a short shaft ||6 which is also connected with the cam plate ||2.

It is desirable that upon a lateral movement' of the cam plate carrying unit to the right, as

viewed in Fig. 5, the unit be held against further rotation irrespective of the disengagement of the pin 69 from the lug 11 of one of the cam plates 16. To this end the plate 16 is provided with a series .of holes ||6 (Fig. 6) one for each cam plate 16. The frame plate |20 of the machine is provided with a laterally extending pin |2| (Fig. 5) so positioned as to engage with one of the holes I9 as the unit is moved to the right. In this-manner, the unit is held against further rotation while the selected cam plate 16 is .adapted to function and the arrangement just described is also effective to hold the unit during its return movement. When the pin |2| is free of the hole ||9 with which it was engaged the cam plate carrying unit will again be rotated until it is again stopped by the pin 60 next elevated.

During this time the pin 60 which was previously elevated will have been lowered to normal position. l

It was previously stated that when the cam plate carrying unit was moved to the right the pin-i60 (Fig. 5) which was elevated is disengaged from the lug 11` of one of the cam plates 16. Prior to the restoration of the cam plate carrying unit the recesses in the cams 6| (Fig. 1) permit the frame carrying the pins 69 and 66 (Fig. 2) to be lowered. The pins which were elevated are now lowered and the pin 60 which was previously raised will now freely drop to its normal position. Also the pin 58 will be returned to normal by the coil spring surrounding it and the spring will act to positively return the plate 6| to its normal position.

After the card is free of the analyzing pins 66 and 50 the cam 21 (Fig. 1) will shift the plate 23 and the pawl 36 engaging a tooth of the ratchet wheel 3| will cause the feeding rollers to feed the card a space of one column preparatory Ito operations eiected under control of the perforations in a succeeding card column.

After the last card column has been analyzed the ratchet wheel 3| will be turned sumciently so that the recess 32 of cam 26 (Fig. 1) will now cooperate with the wedge-shaped projection 23. The frame member 2| will now be shifted so as to disengage the gear |6 from the gear 26 and be engaged with the gear 33. Shaft 26 will now stop and the feeding plate 36 will feed the next card 4| into the machine to repeat the operations just described. y

After a card has controlled the machine, it is fed by the feeding rollers to a storage hopper |22 (see Fig. 1).

It is desirable to lock the fingers 19A, 16B and 19C during the return movement o f the cam plate carrying unit. To this end each of the fingers has secured thereto a pin |26 (Fig. 3) which is normally free of related locking fingers |26. In the normal position of the parts, the lingers 19A, 19B, 19C may, therefore, be freely movable under control of the various cam portions of the selected cam plate 16. The locking-fingers |26 are an integral part of a plate |21 siidabiy mounted by screws |26 and |29. One arm of a pivoted bell crank |36 is connected at |3| to the plate |21 and at |32 toa link |33. The link |33 passes downwardly from the position shown in Fig. 3

portion of the link |33 has a portion |36 adapted to be operated by a cam |36 secured to the'shaft 26. The cam portion ofthe cam |36 is adapted to elevate the link during the time that the cam plate carrying unit is restored to normal thereby holding the fingers 19A, 16B and 16C. The fingers are, however, normally unlocked so that they may takeout positions depending upon the cam formations of the selected cam plate 16.

Fig. 8 is an illustration of a graph utilized to predesign the cam formations for two of the cam plates 16 which are adapted to cause the outlining of the letters "a" and b". 'I'he design of the cams 16 for causing the outline of the remaining letters or characters is followed similarly. In each instance, it will be noted that the desired movement of the pencil 66 is dependent upon the cam formation, a straight up and down movement being controlled by the cam portion 16A, a horizontal movement being controlled by the cam portion 16B, and by a combination of these two movements the desired component can be derived. The function of the cam portion 16C has heretofore been explained.

In order to prevent the outlining of the letters over each other each cam plate is provided in its cam portion 16B thereof with a deep recess |40 (Fig. 3). This recess is of sufficient depth so that the bell crank 66a-61 will be rocked to an extent greater than that permitted by recesses in the other part of the cam portion 16B controlling the representation of a character. In this instance a pawl |31 (Figs. 3 and 9) will engage the successive tooth |36 of a ratchet wheel |39 rotatable with the lower roller of the set 62. 'I'he paper tape 60 will now be held against retraction and the arm 66 will move to the right independent of any return rotation of the annular ring 92.

To form a space between words a space cam plate is provided and is selected under control of perforations at the '1th and 12th positions, (see Fig. 7). Its cam portions 16C and 16A are substantially horizontal while its cam portion 16B has only avrecess |66 to effect the function just described. The space" cam plate will, however, not permit the stencil 66 to contact with vthe paper strip or make any mark thereon.

While there has been shown and described and pointed out the fundamental novel features of the invention as applied to a single modification, it will be understood that various omissions and substitutions and changes in the form and details of the device illustrated and in its operation may be made b y those skilled in the art without departing from'the spirit of the invention. Itis the intention therefore to be limited only as indicated by the scope of the following claims.

What is claimed is:

l. In a machine of the class described, in .combination, means for analyzing a card to determine which character is represented by perforations therein, a plurality of cam devices for causing a relative movement between an inscriber and a record material for forming the outline of a character on 'said record material, and means controlled by said analyzing devices for selecting said cam devices in accordance with the character represented on said card.

2. In a machine of the class described, in combination, means for successively analyzing columns of a card to determine the characters represented by the columns of perforations, a plurality of cam devices for causing a relative movement between an inscriber and a record material for forming the outline of different characters on said record material, means controlled by saidl analyzing means for selecting a cam device `appropriate to the character represented in each column, and means for feeding the record strip to provide a space between characters representing successive words.

3. In a machine of the class described, in combination, means for feeding one of a series of perforated cards to perforation analyzing means, means automatically operable under control of said analyzing means for outlining on a record tape characters represented by a plurality of columns of perforations in said card, and means for feeding a successive card to said analyzing means automatically when the operation of the lrstnamed means has been completed under control of a preceding card.

4. In a machine of the class described, in combination, mea-ns for analyzing a card to determine the characters represented by perforations in successive columns, a plurality of cam operating devices, means for causing a portion of one of said cam devices for moving a record tape relative to a record tape inscriber and for causing the other cam portions of the same cam device to cause a movement of the inscriber relative to the record tape, and means controlled by said analyzing means to select the cam devices in accordance with the perforations in the card columns.

5. In a machine of the class described, in combination a rotatable member carrying a plurality of cam devices, means for causing a predetermined movement of said member to select a desired cam device for operation, means controlled by a lateral movement of a selected cam` device for causing relative movements of an inscriber and a tape to cause the delineation of a character on said tape in accordance with cam formations on said selected cam device, and means for causing a lateral movement of the selected cam dey vice.

6. In a machine of the class described, the combination with an inscriber, of a plurality of cam devices each adapted to cause said inscriber to effect a relative movement between the latter and a record tape to outline on the latter representations of different characters, and cam device selecting means comprising differentially positioned stop lugs movable with said cam devices, and a plurality of stop pins, each adapted to be elevated and positioned so as to engage with a particular stop lug.

7. In a machine of the class described, the combination with an inscriber, of a plurality of cam devices rotatable as a unit, and each adapted to be moved laterally to cause relative movements of said inscriber and a record tape, means for causing a rotation of said cam devices, means for predetermining the rotary movement given to said cam devices for selecting a particular cam device, and means for moving the selected cam device laterally.

8. In a machine of the class described, in combination, an inscriber for outlining different characters on a record material, means for analyzing a perforated record, a plurality of cam means, each having one cam section for guiding a movement ofl said inscriber on said record material, another section to control the engagement of the record material and inscriber, and another section for causing said material to be shifted during the movement of said inscriber, all of said sections cooperating to scribe the outline of a character on said record material, and means controlled by said analyzing means for' selecting one of said plurality of cam means for determining the characters to be outlined.

9. In a machine of the class described, the combination with means for analyzing column by column perforations in each of a plurality of columns of a card which is perforated in a plurality of columns to represent a series of characters by one or more perforations in each column, meansV controlled by said analyzing means and automatically operable for scribing the outline of the characters on a record tape, means for causing the outline of characters to follow successively, and means for causing an automatic operation of the last-named means for each card column analyzed by said analyzing means.

10. In a machine of the class described, in combination, means for analyzing a series of perforated cards, perforation analyzing means for said cards, an operating mechanism, means for causing said mechanism to feed a card from a supply stack to said analyzing mechanism, a plurality of means each operated by said operating mechanism and selected under control of said analyzing means for scribing the outline of different characters on a record tape, means for spacing characters between successive words, means for ejecting the card to a storage stack, and means for thereafter automatically continuing the operation of said operating mechanism after operations under control of one card is completed and automatically feeding a successive card by said feeding means.

11. In a machine of the class described, the combination with a plurality of cam means, each operable to cause a relative movement between an inscriber and a record tape to graphically outline on the latter different characters, and means for selecting said cam means in accordance with a perforated control s'heet.

12. In a machine of the class described, an inscriber for marking a sheet, a single cam element having at its outer edge a continuous cam periphery forming sectionalized cam portions, means for causing one of said cam portions to eiect a movement of said inscriber in one direction, means for causing another cam portion to effect a simultaneous or dis-simultaneous movement of a record tape with respect to said inscriber and means for causing the remaining cam portion to effect a movement of said inscriber to selectively contact with a record tape.

13. In a machine of the class described, in combination, a perforated record containing perforations arranged in sections, analyzing means for analyzing said perforations, a plurality of means each distinct in configuration for scribing the outline of different characters on a record material, means controlled by said analyzing means for selecting for operation the means appropriate to the character represented by the perforations of the section analyzed, and means for thereafter effecting an operative relationship between a successive section of the perforated record and said analyzing means to cause the selection of the .means appropriate to the character represented by the perforations in the successive section.

14. In a machine of the class described, in combination, a plurality of means each operable alone for causing a relative movement between an inscriber land a record material to graphically outline on the latter different letters, and means for selecting said means in accordance with perforations on a control sheet, said periorations occurring according to-a preselected code.

15. In a machine of the class described, in

combination, a perforated sheet containing periorations arranged in columns, said perforations occurring according to a code for the representation of diirerent characters. means for successlvely analyzing the columns of pertoratlons. and j means controlled by said analyzing means forf scribing the outline on a record tape of a char'- acter represented by the pertorations. i

16. In a machine ofthe classdescribed.

vbetween an inscriber and a record material. means controlled by another section for causing a movemento! the inscriber relative to said record material, means whereby the remaining section causes a movement of said record material relative to said inscriber, and means for guiding said 10 cam plate for movement.

GUSTAV TAUSCHEK. 

